The first billion years of the universe were as chaotic as the first presidential debate on Tuesday. Galaxies are forming, gases are flowing Although we don’t want to look back on Tuesday often, we like to. In the sense of the universe, the earth is in a good position. Because it takes a long time for light to travel through the universe, our telescopes can pick up weak signals of early life in the universe. < / P > < p > on Thursday, astronomers announced the discovery of a huge, interesting structure from the universe only 900 million years ago. The structure, about 300 times the size of our galaxy, contains a supermassive black hole that traps six nearby galaxies in a spider web of cosmic gas. This provides new insights into how the early universe could grow so rapidly. In a new study published on Thursday in the journal Astronomy and astrophysics, an international cooperation group of astronomers details the environment around the quasar & quot; SDSS j1030 + 0524 & quot; (referred to as j1030). Quasars are very bright light sources in the sky. They contain a supermassive black hole in the center, surrounded by a huge gas disk called the & quot; accretion disk. < p > < p > using the European Southern Observatory (ESO) very large telescope (VLT) in Chile and the U.S. telescope, astronomers observed j1030, which is located in a deep, dark corner of space. This supermassive black hole has a billion times the mass of our sun, and it’s very huge – which is unusual because it’s very young. In a press release, Marco mignoli, an astronomer at the National Institute of Astrophysics (inaF) in Bologna, Italy, said in a press release: & quot; this research was driven by the ambition to understand some of the most challenging objects, the supermassive black holes in the early universe;. We have found many huge black holes in the earliest days of the universe, but astronomers have not yet been able to determine exactly what made them grow to such a large size. < / P > < p > in the study of j1030, mignoli and his team found that a series of galaxies surrounding the supermassive black hole are intricately connected by gas filaments. &Cosmic web filaments are like spider web threads, he explained. &Galaxies stand and grow where the filaments cross, and gas streams – which fuel galaxies and central supermassive black holes – can flow along the filaments. &The team infers that this large structure may help provide the black hole with the space food it needs to grow to such a large size. The team believes the discovery provides evidence that the dark matter halo, the invisible sphere of dark matter, was the key to the formation of black holes and galaxies in the early universe. It is these rings that provide a framework for the accumulation of substances, such as gases. The gas flows through this invisible skeleton and ends up in a black hole, where it is swallowed up. More gas and galaxies falling into black holes means bigger black holes. < / P > < p > potentially, there are more galaxies in the large structure around j1030. &We believe we’ve only seen the tip of the iceberg, and the few galaxies currently found around the supermassive black hole are the brightest, said Barbara balmaverde, an astronomer with inaF and co-author of the study. It is hoped that the next generation telescope of ESO, the super large telescope, will be able to observe the light emitted by weak objects near j1030. It is expected to be operational in 2025. Spontaneous combustion at a Guangzhou Motor vehicle intersection and other traffic lights in Shenzhen